CN116233619A - Light supplementing control method applied to face recognition - Google Patents
Light supplementing control method applied to face recognition Download PDFInfo
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Abstract
The invention provides a light supplementing control method applied to face recognition, which belongs to the technical field of camera devices and specifically comprises the following steps: and determining a light supplementing period based on an ambient light measurement result of the image pickup device, controlling the white light lamp to supplement light in real time when the light supplementing period is determined to be unnecessary to carry out light supplementing classified control on the image pickup device, screening the light supplementing period based on a history image to obtain a general period when the light supplementing time of the white light lamp is longer than a set value, determining corrected light supplementing intensity based on the face definition requirement of the image pickup device and combining the time length of the general period and the light supplementing time length in the general period, and controlling the white light lamp to supplement light in real time with the corrected light supplementing intensity, thereby realizing the differential control of the light supplementing of the image pickup device.
Description
Technical Field
The invention belongs to the technical field of camera devices, and particularly relates to a light supplementing control method applied to face recognition.
Background
Along with the development of society and the increasingly strict requirements on the reliability of personal and property safety protection, the installation range of a video surveillance camera at the street end is also increasingly wider, the light intensity at certain time cannot meet the requirements due to the influence of the installation position or the environmental condition, meanwhile, the requirements on the light intensity and the image quality are more strict when face recognition is carried out, in order to realize the light supplementing control of a camera device, the invention patent CN112040108B 'a face snapshot camera mixed light supplementing control method, a system, a medium and a terminal' is issued by the following technical problems that the infrared light intensity is regulated according to the brightness of a face image and the face snapshot is completed according to the brightness of the face image of a target object through the identification of the face image in a detection result, and when the snapshot condition is satisfied:
the determination of the light filling mode by combining the historical image analysis result of the image pickup device and the face definition requirement of the image pickup device is not considered, and because in general, when a person enters the monitoring range of the image pickup device, the person is basically in a moving state, if the person finds the face, the person cannot accurately capture the face due to the switching of the light filling mode, and meanwhile, in specific places, such as places of an ATM (automatic teller machine), a campus, a hospital and the like, the face definition requirement of the image pickup device and the face definition requirement of the face shooting are higher, and if the scheme of the authorized patent is adopted, the person cannot accurately capture the face.
The compensation intensity control is not considered by combining the light supplementing time length of the white light lamp and the face definition requirement of the camera, when the compensation time length of the white light lamp is too long, the service life of the white light lamp can be influenced to a certain extent according to the original light supplementing intensity, meanwhile, the requirements of the light supplementing intensity of different camera are also different, the definition of an image can be further corrected through a software algorithm, and therefore, if the requirements of the light supplementing intensity are not considered, the working stability of the camera can be possibly influenced.
Aiming at the technical problems, the invention provides a light supplementing control method applied to face recognition.
Disclosure of Invention
According to one aspect of the invention, an artificial intelligence-based periodic detection method for abnormal data of accounts is provided.
In order to achieve the purpose of the invention, the invention adopts the following technical scheme:
according to one aspect of the present invention, there is provided a light supplementing control method applied to face recognition.
The light supplementing control method applied to face recognition is characterized by comprising the following steps of:
s11, determining a light supplementing period based on an ambient light measurement result of the image pickup device, determining whether light supplementing classification control is needed for the image pickup device based on the light supplementing period, if so, entering a step S12, and if not, entering a step S14;
s12, determining a face definition requirement through the installation position of the camera device, determining whether light supplementing control is needed to be carried out on the camera device or not based on the face definition requirement, if so, entering a step S14, and if not, entering a step S13;
s13, determining whether light supplementing control is needed or not according to the number of people in the historical images in the light supplementing period and the time length of the people contained in the historical images of the image pickup device and combining the light supplementing period and the face definition requirement, if yes, entering a step S14, if not, carrying out real-time light supplementing based on an infrared light lamp, and controlling a white light lamp to carry out light supplementing when the face is monitored;
s14, controlling the white light lamp to supplement light in real time, screening the light supplementing time period based on the history image to obtain a general time period when the light supplementing time period of the white light lamp is longer than a set value, determining the corrected light supplementing intensity based on the face definition requirement of the image pickup device and combining the time length of the general time period and the light supplementing time length in the general time period, and controlling the white light lamp to supplement light in real time according to the corrected light supplementing intensity.
The determination of the light supplementing period is determined based on the ambient light measurement result of the image pickup device, so that the image pickup device with a shorter light supplementing period can supplement light to the white light lamp in real time without considering other factors, the judging efficiency is improved, and the shooting accuracy of the image pickup device is also ensured.
The face definition requirements are determined by combining the installation positions of the camera devices, and the light supplementing control is determined based on the face definition requirements, so that the camera devices with special installation positions can adopt white light lamp light supplementing in real time, the shooting accuracy is improved, and meanwhile, unnecessary dispute problems are avoided.
The number of people in the historical images of the camera device in the light supplementing period and the time length of the people contained in the historical images are combined, and the light supplementing control is determined by combining the light supplementing period and the face definition requirement, so that the installation position of the camera device and the length of the light supplementing period are considered, and meanwhile, the camera device is combined with the personnel flowing condition of the camera device, and the comprehensiveness and the accuracy of the light supplementing control are further guaranteed.
The correction light supplementing intensity is determined by combining the time length of the general time period and the light supplementing time length based on the face definition requirement of the image pickup device, and the white light lamp is controlled in real time to supplement light according to the correction light supplementing intensity, so that the occurrence probability of attenuation or other unexpected faults caused by long working time of the white light lamp is greatly reduced, and the working stability of the whole image pickup device is ensured.
On the other hand, the invention provides a light supplementing control system applied to face recognition, and the light supplementing control method applied to face recognition specifically comprises the following steps:
a classification control determination module; a light supplementing control determining module; a light supplementing intensity determining module;
the classification control determining module is responsible for determining a light supplementing period based on an ambient light measuring result of the image pickup device and determining whether light supplementing classification control is needed to be carried out on the image pickup device based on the light supplementing period;
the light supplementing control determining module is responsible for determining whether light supplementing control is needed or not based on the number of people in the historical image of the camera device in the light supplementing period and the time length of the people contained in the historical image and combining the light supplementing period and the face definition requirement or based on the face definition requirement;
and when the light supplementing time length of the white light lamp is larger than a set value, screening the light supplementing time period based on the historical image to obtain a general time period, determining the corrected light supplementing intensity based on the face definition requirement of the camera device and combining the time length of the general time period and the light supplementing time length in the general time period, and controlling the white light lamp to supplement light in real time according to the corrected light supplementing intensity.
In another aspect, the present invention provides a computer storage medium having a computer program stored thereon, which when executed in a computer, causes the computer to perform a light supplementing control method for face recognition as described above.
Additional features and advantages will be set forth in the description which follows, and in part will be apparent from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.
In order to make the above objects, features and advantages of the present invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.
Drawings
The above and other features and advantages of the present invention will become more apparent by describing in detail exemplary embodiments thereof with reference to the attached drawings;
fig. 1 is a flowchart of a light supplementing control method applied to face recognition according to embodiment 1;
fig. 2 is a flowchart of specific steps of determining whether light supplement control is necessary or not according to embodiment 1;
FIG. 3 is a flowchart showing specific steps for the determination of the corrected intensity of light according to example 1;
fig. 4 is a block diagram of a light supplementing control system applied to face recognition according to embodiment 2;
fig. 5 is a frame diagram of a computer storage medium according to embodiment 3.
Detailed Description
Example embodiments will now be described more fully with reference to the accompanying drawings. However, the exemplary embodiments can be embodied in many forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the example embodiments to those skilled in the art. The same reference numerals in the drawings denote the same or similar structures, and thus detailed descriptions thereof will be omitted.
The terms "a," "an," "the," and "said" are used to indicate the presence of one or more elements/components/etc.; the terms "comprising" and "having" are intended to be inclusive and mean that there may be additional elements/components/etc. in addition to the listed elements/components/etc.
Example 1
In order to solve the above problems, according to an aspect of the present invention, as shown in fig. 1, there is provided a light supplementing control method applied to face recognition according to an aspect of the present invention.
The light supplementing control method applied to face recognition is characterized by comprising the following steps of:
s11, determining a light supplementing period based on an ambient light measurement result of the image pickup device, determining whether light supplementing classification control is needed for the image pickup device based on the light supplementing period, if so, entering a step S12, and if not, entering a step S14;
it should be noted that, the light supplementing period is determined according to a period that the ambient light measurement result is smaller than a preset ambient light set value, and when the duration of the light supplementing period is greater than a set amount, light supplementing classification control needs to be performed on the image capturing device.
Specifically, if the light supplementing period is 3 hours and the set amount is 2 hours, the light supplementing period is longer, so that the light supplementing classification control needs to be performed on the image capturing device, rather than directly determining to use a white light lamp for light supplementing control.
In this embodiment, the determination of the light supplementing period is determined based on the ambient light measurement result of the image capturing device, so that the image capturing device with a shorter light supplementing period performs real-time white light supplementing without considering other factors, thereby improving the judging efficiency and also ensuring the shooting accuracy of the image capturing device.
S12, determining a face definition requirement through the installation position of the camera device, determining whether light supplementing control is needed to be carried out on the camera device or not based on the face definition requirement, if so, entering a step S14, and if not, entering a step S13;
the specific illustration shows that the face definition requirement is determined according to the installation position of the image pickup device, the specific illustration uses a mathematical model based on expert scoring for determination, and when the face definition requirement is greater than a definition preset value, it is determined that light compensation control is required for the image pickup device.
It can be understood that, for example, the camera device is installed at a bank, an ATM, a campus, etc., and the requirement on the face definition is obviously higher, specifically, the camera device can be determined by adopting an expert scoring mode, for example, the requirement on the face definition of the bank is 0.9, and the requirement on the face definition of the campus is 0.6, and when the requirement is greater than a set value of 0.5, the camera device needs to be subjected to light compensation.
In this embodiment, the face definition requirement is determined by combining with the installation position of the image pickup device, and the light compensation control is determined based on the face definition requirement, so that the image pickup device with a special installation position can use the white light lamp for light compensation in real time, thereby not only improving the shooting accuracy, but also avoiding unnecessary disputes.
S13, determining whether light supplementing control is needed or not according to the number of people in the historical images in the light supplementing period and the time length of the people contained in the historical images of the image pickup device and combining the light supplementing period and the face definition requirement, if yes, entering a step S14, if not, carrying out real-time light supplementing based on an infrared light lamp, and controlling a white light lamp to carry out light supplementing when the face is monitored;
it can be understood that, for the image capturing devices installed at different positions, the people flow and the number of people in the light supplementing period and the time length containing people are different, while the more or longer the people flow and the number of people in the light supplementing period and the time length containing people are, the higher the requirement of the image capturing device for capturing images is described, and meanwhile, when the people are too few, if the requirement of the face definition is not high, the real-time light supplementing of the white light lamp is not needed at the moment, so that the running stability of the image capturing device is ensured.
Specifically, as shown in fig. 2, the specific steps for determining whether the light compensation control is needed are as follows:
s21, determining whether light supplementing control is needed or not based on the number of people in the historical image of the image pickup device in the light supplementing period, if so, determining that light supplementing control is needed, and if not, entering step S22;
the number of people in the history image of the image capturing device in the light supplementing period may be determined according to the maximum value or the average value of the number of people in the history image in the light supplementing period in the latest certain time, and when the maximum value or the average value is greater than a certain value, it is determined that the number of people is greater, and light supplementing control is required.
S22, determining whether light supplementing control is needed or not based on the time length of the person contained in the historical image of the camera device in the light supplementing period, if so, determining that light supplementing control is needed, and if not, entering step S23;
it should be noted that, the duration of the camera device including the person in the light supplementing period may be determined according to the maximum value or the average value of the duration including the person in the light supplementing period in the latest certain time, and when the duration is greater than a certain value, it is determined that the duration and the scene of the person needing face recognition are more, and light supplementing control is needed.
S23, determining whether the image pickup device belongs to a screening image pickup device or not based on the face definition requirement of the image pickup device, if so, entering a step S24, and if not, entering a step S25;
when the face definition requirement of the image capturing device is greater than a definition set value, the image capturing device is used as a screening image capturing device, wherein the definition set value is smaller than a definition preset value.
S24, determining whether light compensation control is needed or not based on the light compensation period of the screening camera, if yes, determining that light compensation control is needed, and if not, entering step S25;
when the light supplementing period of the screening image pickup apparatus is long, it is determined that the light supplementing control is required.
S25, determining whether light supplementing control is needed or not based on the number of people in the historical image of the image capturing device in the light supplementing period, the time length of the people contained in the historical image, the light supplementing period and the face definition requirement.
It should be noted that, the construction of the light-compensating evaluation value of the image capturing device is performed based on the number of people in the history image of the image capturing device in the light-compensating period, the time length of the people contained in the history image, the light-compensating period and the face definition requirement, and when the light-compensating evaluation value is greater than a certain value, it is determined that the light-compensating control is required.
The specific illustration shows that the light filling evaluation value is determined by adopting a model based on an SSA-BP neural network, wherein the specific construction steps of the model are as follows:
(1) Initializing related parameters of a sparrow search algorithm, including population scale, maximum iteration times, iteration times of a BP neural network and hidden layer weights;
(2) And training the training sample through cross verification, wherein the accuracy of the cross verification is used as the fitness of the sparrow individuals. The optimal fitness value and the position information are reserved;
(3) And (3) iterating until the iteration times meet the termination condition, outputting optimal parameters, and obtaining the model of the SSA-BP neural network. And constructing a light supplementing evaluation value of the camera device by using the trained model of the SSA-BP neural network.
It should be noted that, the updating manner of the SA can be divided into two types: approaching the current optimal position or approaching the lowest point, using both approaches to update the sparrow's position may trap the algorithm into a local optimum. Because the individual of SSA converges to the current optimal solution in a manner of directly reaching the vicinity of the optimal solution, rather than gradually moving to the optimal solution like PSO, this can lead to problems such as reduced population diversity, premature convergence, etc. when SSA searches approach global optima.
Considering the characteristics of good global searching capability in the Levy flight process, uniform traversing of the Tent chaotic sequence and high convergence speed, the invention provides an improved sparrow searching optimization algorithm ISSA (Improved Sparrow Search Optimization Algorithm). When the population distribution is initialized, the idea of traversing uniform Tent chaotic mapping is utilized to optimize individual distribution, so that initial individuals in the population are uniformly distributed in a solution space as much as possible, and finally individuals in the population are randomly selected to perform Levy flight, so that the global optimizing performance is improved, wherein the specific steps of the construction of the improved sparrow searching optimization algorithm are as follows:
step1: initializing various parameters of an algorithm: population scale, finder proportion, alerter proportion, objective function dimension, upper and lower bounds of initial values, maximum iteration number and/or solution accuracy;
step2: initializing a population, and randomly generating initial coordinates of each point bit according to a Tent sequence and a Logistic mapping mode;
step3: calculating the fitness of each sparrow individual, sorting in a descending order, and selecting the current optimal fitness and the corresponding position thereof, and the current worst fitness and the corresponding position thereof;
step4: setting the top p individuals which are the optimal after the sequencing as discoverers, defaulting the discoverers as all the remaining individuals of the population, and updating the current positions of the discoverers and the enrollees;
step5: randomly selecting s individuals from the current population as early warning persons, and updating the point positions according to a mathematical formula;
step6: substituting the coordinates of each individual into the fitness function after iteration is finished to calculate individual fitness and calculate an average value, and updating the optimal and worst fitness and the coordinates thereof;
step7: randomly selecting the population individuals, carrying out levy flight on the population individuals, judging whether the current state reaches the maximum iteration number or the convergence accuracy of initial setting, if so, ending the process to output the optimal position of the population, otherwise, returning to Step3 to continue execution.
It should be noted that, by sequentially performing all accesses to the values on the sine function, that is, performing all traversals to the points on the unit circle, the algorithm has a very strong global optimizing capability. And secondly, when the algorithm carries out iterative updating on the position, the search capability of the algorithm on the area nearby the optimal solution obtained by each iteration is enhanced through the introduction of the golden section coefficient, and therefore the local search capability and the convergence rate of the algorithm are greatly improved. The Gold-SA and other intelligent algorithms have main position updating modes, firstly, the population of the algorithm is randomly initialized, and then, in the iterative updating process of the algorithm, the position updating mode of each individual is mainly carried out by the following formula:
wherein is->Random number between 0 and 2 pi,/v>Random number between 0 and pi,/v>And->For golden sine division coefficient, x t ig is the optimal population position of the ith individual at the t generation, x t i is the position of the ith individual at the t generation, favg is the population fitness mean value, and fi is the fitness of the ith individual; />Representing the random numbers generated by the random number generator subject to a standard normal distribution.
In this embodiment, the number of people in the history image of the image capturing device in the light supplementing period and the time length of the people contained in the history image are combined, and the light supplementing period and the face definition requirement are combined to determine the light supplementing control, so that the installation position of the image capturing device and the length of the light supplementing period are considered, and meanwhile, the method is combined with the personnel flowing condition of the image capturing device, and the comprehensiveness and the accuracy of the determination of the light supplementing control are further ensured.
S14, controlling the white light lamp to supplement light in real time, screening the light supplementing time period based on the history image to obtain a general time period when the light supplementing time period of the white light lamp is longer than a set value, determining the corrected light supplementing intensity based on the face definition requirement of the image pickup device and combining the time length of the general time period and the light supplementing time length in the general time period, and controlling the white light lamp to supplement light in real time according to the corrected light supplementing intensity.
It should be noted that, the light supplementing duration of the white light lamp is determined according to the accumulated working duration of the white light lamp, and the set value is determined according to the type of the white light lamp.
As shown in fig. 3, the specific steps for determining the corrected light compensation intensity are as follows:
s31, acquiring a historical shooting image of the image pickup device in a light supplementing period based on the historical image, judging whether the historical shooting images of the image pickup device in the light supplementing period meet the face definition requirement of the image pickup device, if so, entering a step S33, and if not, entering a step S32;
if the historical shot images can meet the face definition requirement of the image pickup device, the correction light compensation intensity can be directly constructed, if not, the time length of a period which does not meet the face definition requirement is determined, and whether the correction light compensation intensity is required is determined according to the result.
S32, acquiring the exposure of the historical shot image, acquiring an exposure basic value of the camera based on the face definition requirement of the camera, screening a general period based on the exposure basic value and the exposure, determining whether the light supplementing intensity of the white light lamp can be corrected based on the duration of the general period, if so, entering a step S33, and if not, not correcting the light supplementing intensity of the white light lamp;
s33, obtaining an exposure difference value of the historical shot image based on the difference value of the exposure quantity and the exposure quantity basic value, screening a high exposure period when the exposure difference value, and constructing a correction light supplementing intensity based on the duration of the high exposure period, the duration of a general period, the light supplementing duration and the face definition requirement of the image pickup device.
It should be noted that, the correction light intensity is also determined by using a model based on the SSA-BP neural network, and detailed descriptions thereof are omitted here.
Specifically, a period in which the difference between the exposure amount of the history shot image and the exposure amount base threshold is smaller than a set exposure amount is taken as a general period, and a period in which the difference between the exposure amount of the history shot image and the exposure amount base threshold is larger than a preset exposure amount, which is larger than the set exposure amount, is taken as a high exposure period.
In this embodiment, the correction light supplementing intensity is determined by combining the time length of the general period and the light supplementing time length based on the face definition requirement of the image pickup device, and the white light lamp is controlled in real time to supplement light according to the correction light supplementing intensity, so that the occurrence probability of attenuation or other unexpected faults caused by long working time of the white light lamp is greatly reduced, and the working stability of the whole image pickup device is ensured.
Example 2
On the other hand, as shown in fig. 4, the present invention provides a light supplementing control system applied to face recognition, and the light supplementing control method applied to face recognition specifically includes:
a classification control determination module; a light supplementing control determining module; a light supplementing intensity determining module;
the classification control determining module is responsible for determining a light supplementing period based on an ambient light measuring result of the image pickup device and determining whether light supplementing classification control is needed to be carried out on the image pickup device based on the light supplementing period;
the light supplementing control determining module is responsible for determining whether light supplementing control is needed or not based on the number of people in the historical image of the camera device in the light supplementing period and the time length of the people contained in the historical image and combining the light supplementing period and the face definition requirement or based on the face definition requirement;
specific examples of specific steps for determining whether light compensation is needed are:
s21, when the number of people in the historical image of the image pickup device in the light supplementing period is determined to be unnecessary to carry out light supplementing control, entering step S22;
the number of people in the history image of the image capturing device in the light supplementing period may be determined according to the maximum value or the average value of the number of people in the history image in the light supplementing period in the latest certain time, and when the maximum value or the average value is greater than a certain value, it is determined that the number of people is greater, and light supplementing control is required.
S22, entering a step S23 when the fact that light supplementing control is not needed is determined based on the time length of the person contained in the historical image of the image pickup device in the light supplementing period;
it should be noted that, the duration of the camera device including the person in the light supplementing period may be determined according to the maximum value or the average value of the duration including the person in the light supplementing period in the latest certain time, and when the duration is greater than a certain value, it is determined that the duration and the scene of the person needing face recognition are more, and light supplementing control is needed.
S23, when the camera device is determined to belong to the screening camera device based on the face definition requirement of the camera device, entering step S24;
when the face definition requirement of the image capturing device is greater than a definition set value, the image capturing device is used as a screening image capturing device, wherein the definition set value is smaller than a definition preset value.
And S24, when the light supplementing control is determined to be needed based on the light supplementing period of the screening image capturing device, determining that the light supplementing control is needed.
When the light supplementing period of the screening image pickup apparatus is long, it is determined that the light supplementing control is required.
And when the light supplementing time length of the white light lamp is larger than a set value, screening the light supplementing time period based on the historical image to obtain a general time period, determining the corrected light supplementing intensity based on the face definition requirement of the camera device and combining the time length of the general time period and the light supplementing time length in the general time period, and controlling the white light lamp to supplement light in real time according to the corrected light supplementing intensity.
Example 3
In another aspect, as shown in fig. 5, the present invention provides a computer storage medium having a computer program stored thereon, which when executed in a computer, causes the computer to perform a light supplementing control method for face recognition as described above.
Specifically, for example, the light supplementing control method applied to face recognition specifically includes:
determining a light supplementing period based on an ambient light measurement result of the image pickup device, and entering a next step when the light supplementing period is determined to be unnecessary to carry out light supplementing classified control on the image pickup device;
and when the light supplementing time of the white light lamp is longer than a set value, screening the light supplementing time period based on a historical image to obtain a general time period, determining the corrected light supplementing intensity by combining the time length of the general time period and the light supplementing time length based on the face definition requirement of the image pickup device in the general time period, and controlling the white light lamp to supplement light in real time according to the corrected light supplementing intensity.
In particular, it will be understood by those skilled in the art that implementing all or part of the above-described methods of the embodiments may be accomplished by way of hardware associated with instructions of a computer program stored on a non-transitory computer-readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the various embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.
In the several embodiments provided in this application, it should be understood that the disclosed systems and methods may be implemented in other ways as well. The system embodiments described above are merely illustrative, for example, of the flowcharts and block diagrams in the figures that illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to various embodiments of the present invention. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams and/or flowchart illustration, and combinations of blocks in the block diagrams and/or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.
In addition, functional modules in the embodiments of the present invention may be integrated together to form a single part, or each module may exist alone, or two or more modules may be integrated to form a single part.
The functions, if implemented in the form of software functional modules and sold or used as a stand-alone product, may be stored on a computer readable storage medium. Based on this understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution in the form of a software product stored in a storage medium, comprising several instructions for causing a computer device (which may be a personal computer, a server, a network device, etc.) to perform all or part of the steps of the method of the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.
With the above-described preferred embodiments according to the present invention as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present invention. The technical scope of the present invention is not limited to the description, but must be determined according to the scope of claims.
Claims (10)
1. The light supplementing control method applied to face recognition is characterized by comprising the following steps of:
s11, determining a light supplementing period based on an ambient light measurement result of the image pickup device, determining whether light supplementing classification control is needed for the image pickup device based on the light supplementing period, if so, entering a step S12, and if not, entering a step S14;
s12, determining a face definition requirement through the installation position of the camera device, determining whether light supplementing control is needed to be carried out on the camera device or not based on the face definition requirement, if so, entering a step S14, and if not, entering a step S13;
s13, determining whether light supplementing control is needed or not according to the number of people in the historical images in the light supplementing period and the time length of the people contained in the historical images of the image pickup device and combining the light supplementing period and the face definition requirement, if yes, entering a step S14, if not, carrying out real-time light supplementing based on an infrared light lamp, and controlling a white light lamp to carry out light supplementing when the face is monitored;
s14, controlling the white light lamp to supplement light in real time, screening the light supplementing time period based on the history image to obtain a general time period when the light supplementing time period of the white light lamp is longer than a set value, determining the corrected light supplementing intensity based on the face definition requirement of the image pickup device and combining the time length of the general time period and the light supplementing time length in the general time period, and controlling the white light lamp to supplement light in real time according to the corrected light supplementing intensity.
2. The light-supplementing control method according to claim 1, wherein the light-supplementing period is determined according to a period in which the ambient light measurement result is smaller than a preset ambient light setting value, and when the duration of the light-supplementing period is greater than a set amount, light-supplementing classification control is required for the image pickup apparatus.
3. The method for light supplement control according to claim 1, wherein the face definition requirement is determined according to the installation position of the image pickup device, specifically, a mathematical model based on expert scoring is adopted for determination, and when the face definition requirement is greater than a definition preset value, it is determined that light supplement control is required for the image pickup device.
4. The light-supplementing control method according to claim 1, wherein the specific step of determining whether the light-supplementing control is required is:
s21, determining whether light supplementing control is needed or not based on the number of people in the historical image of the image pickup device in the light supplementing period, if so, determining that light supplementing control is needed, and if not, entering step S22;
s22, determining whether light supplementing control is needed or not based on the time length of the person contained in the historical image of the camera device in the light supplementing period, if so, determining that light supplementing control is needed, and if not, entering step S23;
s23, determining whether the image pickup device belongs to a screening image pickup device or not based on the face definition requirement of the image pickup device, if so, entering a step S24, and if not, entering a step S25;
s24, determining whether light compensation control is needed or not based on the light compensation period of the screening camera, if yes, determining that light compensation control is needed, and if not, entering step S25;
s25, determining whether light supplementing control is needed or not based on the number of people in the historical image of the image capturing device in the light supplementing period, the time length of the people contained in the historical image, the light supplementing period and the face definition requirement.
5. The light supplementing control method according to claim 4, wherein when the face definition requirement of the image capturing device is greater than a definition set value, the image capturing device is used as a screening image capturing device, wherein the definition set value is smaller than a definition preset value.
6. The method of claim 1, wherein the light-compensating time period of the white light lamp is determined according to an accumulated operating time period of the white light lamp, and the set value is determined according to a type of the white light lamp.
7. The light compensation control method according to claim 1, wherein the specific steps of the correction light compensation intensity determination are:
s31, acquiring a historical shooting image of the image pickup device in a light supplementing period based on the historical image, judging whether the historical shooting images of the image pickup device in the light supplementing period meet the face definition requirement of the image pickup device, if so, entering a step S33, and if not, entering a step S32;
s32, acquiring the exposure of the historical shot image, acquiring an exposure basic value of the camera based on the face definition requirement of the camera, screening a general period based on the exposure basic value and the exposure, determining whether the light supplementing intensity of the white light lamp can be corrected based on the duration of the general period, if so, entering a step S33, and if not, not correcting the light supplementing intensity of the white light lamp;
s33, obtaining an exposure difference value of the historical shot image based on the difference value of the exposure quantity and the exposure quantity basic value, screening a high exposure period when the exposure difference value, and constructing a correction light supplementing intensity based on the duration of the high exposure period, the duration of a general period, the light supplementing duration and the face definition requirement of the image pickup device.
8. The light supplementing control method according to claim 7, wherein a period in which a difference between an exposure amount of the history shot image and the exposure amount base threshold is smaller than a set exposure amount is taken as a general period, and a period in which a difference between an exposure amount of the history shot image and the exposure amount base threshold is larger than a preset exposure amount, which is larger than the set exposure amount, is taken as a high exposure period.
9. A light supplementing control system applied to face recognition, adopting the light supplementing control method applied to face recognition according to any one of claims 1-8, and specifically comprising:
a classification control determination module; a light supplementing control determining module; a light supplementing intensity determining module;
the classification control determining module is responsible for determining a light supplementing period based on an ambient light measuring result of the image pickup device and determining whether light supplementing classification control is needed to be carried out on the image pickup device based on the light supplementing period;
the light supplementing control determining module is responsible for determining whether light supplementing control is needed or not based on the number of people in the historical image of the camera device in the light supplementing period and the time length of the people contained in the historical image and combining the light supplementing period and the face definition requirement or based on the face definition requirement;
and when the light supplementing time length of the white light lamp is larger than a set value, screening the light supplementing time period based on the historical image to obtain a general time period, determining the corrected light supplementing intensity based on the face definition requirement of the camera device and combining the time length of the general time period and the light supplementing time length in the general time period, and controlling the white light lamp to supplement light in real time according to the corrected light supplementing intensity.
10. A computer storage medium having stored thereon a computer program which, when executed in a computer, causes the computer to perform a light supplementing control method for face recognition according to any of claims 1-8.
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